EP0566527A1 - Method of operation for the pit of a refuse incineration plant - Google Patents

Abstract

The method of management, according to the invention, of a refuse pit (1) can be broken down into two parts, firstly an application on the admission of the refuse to and an application on the removal of the refuse from the pit, it being possible to apply the two parts independently or simultaneously. During management of the admission of the refuse, the average lower calorific power (PCi) of the refuse charging is estimated (21), the lorry (30) then being directed, following a calculation carried out by calculation means (6), towards a given access (10) to the pit, in such a manner that the PCi of the pile of refuse (5) contained in the pit is as homogeneous as possible. For the management of the removal of the refuse, detection means (8) make it possible, also with the aid of calculation means (6), to determine the general shape of the pile contained in the pit and to order the grab (12) of the travelling crane (11) for emptying in order to take the refuse from a given place in the pile. The management of a pit according to the process of the invention makes it possible to economise on the work of the travelling crane as well as the presence of a crane operator, which reduces the cost of incineration of the refuse. <IMAGE>

Description

The present invention relates to a method for managing the entry and / or exit of refuse from a pit for the supply of at least one oven capable of supplying at least one boiler of an incineration plant, this pit comprising a plurality of accesses, respectively of doors, by which means of collection, for example trucks, responsible for the collection of refuse come to unload their contents, and at least a means of elimination, for example a skip rolling, allowing a quantity of garbage to be taken from a point on the upper surface of the pile contained in the pit in order to bring them to feeding means, for example loading hoppers, one or more incineration ovens .

Every garbage incineration plant has a garbage pit into which trucks are dumped ensuring the urban collection of household or industrial garbage. This pit plays the role of regulator, of buffer stock, between intermittent arrivals of garbage, massive at certain times of the day and the furnaces providing thermal energy to the boiler or boilers, and whose rate of elimination in tape is defined by their power.

Currently, the available volume of the pit is managed solely according to the topography of the upper surface of the refuse heap, i.e. each truck arriving to unload its contents is addressed to the door behind which the heap garbage is the lowest. Conversely, the crane operator maneuvering the overhead crane which dominates the pit feeds the hoppers of the ovens by removing material from the highest points of the pile. The topography of the refuse heap therefore plays a major role in the management of the entry and exit of refuse from a pit according to the prior art.

It is important that the ovens do not undergo too rapid variations of regime by successively burning garbage having a lower calorific value (PC _i ) very low then very high. This remark is also valid for the subsequent operations of purification and washing of the fumes, in particular for the operation of deNOX by treatment of the fumes with urea or ammonia, for which the temperature of the gases must be at a determined level, as constant as possible, in the combustion chamber. To obtain this in the pits managed according to the prior art, the crane operator must endeavor to standardize the quality of the garbage contained in the pit, by constantly mixing the heterogeneous garbage dumped opposite each door. This stacking operation mobilizes staff and the overhead crane excessively.

A first object of the invention is to propose a method for managing the arrival of refuse in a refuse pit, so as to equalize the PC between the different portions of the pile of refuse contained in the pit. The main advantage of a management according to this process resides in the elimination of the stacking operation and consequently a strong reduction of work for the crane operator and the overhead crane, while ensuring the supply of a fuel to PC relatively constant in ovens. The management of the discharge of refuse from the pit to transport it to the ovens can be carried out in the conventional manner.

This first object of the invention can be achieved by the management of a pit according to the method indicated in the first claim.

A second object of the invention is to propose a method for managing the exit of the refuse from a refuse pit, so as to automate the stacking operations and the removal of refuse from the pit to transport them to the ovens. The main advantage of management according to this process lies in the fact that the automation of the process makes it possible to greatly reduce the workload of the crane operator, or even to eliminate this work station. The management of the entry of refuse into the pit can be carried out in the conventional manner.

This second object of the invention can be achieved by managing a pit according to the method indicated in the second claim.

A third object of the invention is to propose a method for managing the entry as well as the exit of refuse from a refuse pit, by combining the processes described above. The advantages mentioned for the two methods described above are combined when managing a pit according to this third method, that is to say a fully automatic pit management, which makes it possible to significantly reduce the cost of incineration of garbage, while ensuring a supply of furnaces with a fuel having a relatively constant PC.

This third object of the invention can be achieved by managing a pit according to the method indicated in the third claim.

A fourth object of the invention is to complete the process for managing the exit of the refuse from the pit in order to further reduce the load of the crane operator while having refuse, respectively fuel with the most homogeneous PC possible.

This fourth object of the invention can be achieved by managing a pit according to the method indicated in the fourth claim.

Another object of the invention is to propose a device, according to several embodiments, which can carry out one or the other of the preceding methods for managing a refuse pit.

This object is achieved by a device as described, according to several embodiments, in claims 5 to 17.

Finally, a final object of the invention is to propose a refuse pit which can be managed according to one of the methods mentioned above, as described in claim 18.

• - la figure 1 représente une vue schématique en plan d'une partie d'une installation d'incinération d'ordures,
• - la figure 2 représente une coupe longitudinale d'une fosse d'ordures prise selon la ligne II-II de la figure 1, et
• - la figure 3 représente une coupe transversale d'une fosse d'ordures prise selon la ligne III-III de la figure 1.

The following description explains the invention with reference to the drawing with the figures where:

• FIG. 1 represents a schematic plan view of part of a garbage incineration plant,
• FIG. 2 represents a longitudinal section of a refuse pit taken along line II-II of FIG. 1, and
• - Figure 3 shows a cross section of a refuse pit taken along line III-III of Figure 1.

A garbage incineration plant, only part of which is shown diagrammatically in plan in Figure 1, includes in particular a garbage pit 1, the roof of which has been removed in the figure in order to allow its interior to be distinguished , an access 2, by which the means for collecting the refuse, here trucks 3, enter the enclosure of the installation, as well as supply means 4 for incineration furnaces represented at 40 in FIG. 2.

The refuse pit 1 is of a design absolutely similar to those already known, it generally has the shape of a rectangular parallelepiped, one of the faces of which having the length of said parallelipiped is provided with a plurality of doors 10 through which the refuse are dumped by a truck 30 onto a portion 50 of the refuse pile 5 of the pit. Preferably the height of the pit is greater than its width. As seen in Figures 2 and 3, the doors 10 are generally arranged side by side on one face of the pit 1, the latter being semi-buried as in Figure 3, or an access ramp being provided so that the trucks 30 can access the doors 10 from the outside. The pile of garbage 5 contained in the pit 1 has the general shape of a succession of portions of trunks of cones arranged behind each door 10. As can be seen in Figure 3, the cross section of the portion 50 of the pile 5 shows a slope rising from the bottom wall of the pit to a part of the front wall located directly under a door 10, while in Figure 2 we see that the distribution is quite irregular, some of the trunks of cones rising higher than others, depending on the number of trucks that have spilled through the door in question and the samples taken so far. In a pit managed according to the prior art, the truck 3 is first of all weighed by a balance, represented in FIG. 1 only by its plate 20, in order to know the tonnage of materials entering the pit 1, then is directed towards the door 10 where the portion 50 of the pile of garbage 5 is the lowest, while the overhead crane 11, provided with its bucket 12, which can circulate over the entire length and the entire width of the pit 1, works constantly in order to try to homogenize the heap 5 by stacking as well as possible, in order to provide the hopper shown diagrammatically in 4 with materials to be burned having a calorific power as constant as possible.

• une première touche A correspondant à des déchets très riches à très haut pouvoir calorifique inférieur (PC de environ 3600 kcal/kg) contenant principalement du bois ou du plastique, provenant en particulier de démolitions d'immeubles,
• une deuxième touche B, correspondant à des déchets relativement riches à haut pouvoir calorifique inférieur (PC de environ 3000 kcal/kg) contenant principalement du carton ou du papier, provenant en particulier de l'industrie, de l'artisanat ou du commerce,
• une troisième touche C, correspondant à des déchets moins riches à pouvoir calorifique inférieur moyen (PC de environ 2400 kcal/kg) contenant principalement des déchets ménagers, provenant de la récolte des sacs poubelles, et
• une quatrième touche D, correspondant à des déchets assez pauvres à faible pouvoir calorifique inférieur (PC de environ 500 kcal/kg) contenant principalement des déchets organiques comme de l'herbe, des feuilles ou des légumes.
• Une cinquième touche M, dite "de modération" peut permettre de nuancer, par exemple à la baisse, chacune des estimations précédentes afin de tenir compte d'un chargement particulièrement inhomogè- ne au point de vue du PC_i.

A pit managed according to the method for managing the entry of refuse according to the invention comprises, in addition to that described above, preferably near the scale 20 which determines the mass of incoming refuse, a means of introduction 21 the estimated calorific value of the garbage being weighed. For this, the driver of the truck 3 preferably has a box 21 on which he displays a code corresponding to his estimate of the calorific value of the garbage he brings; the housing can comprise, for example, several keys, each of them corresponding to a type of garbage, respectively a given lower calorific value. We can have, for example:

• a first key A corresponding to very rich waste with very high lower calorific value (PC of about 3600 kcal / kg) containing mainly wood or plastic, coming in particular from demolitions of buildings,
• a second key B, corresponding to relatively rich waste with a high calorific value lower (PC of approximately 3000 kcal / kg) containing mainly cardboard or paper, coming in particular from industry, craft industry or trade,
• a third key C, corresponding to less rich waste with an average lower calorific value (PC of approximately 2400 kcal / kg) containing mainly household waste, originating from the collection of garbage bags, and
• a fourth key D, corresponding to fairly poor waste with low calorific value (PC of about 500 kcal / kg) containing mainly organic waste such as grass, leaves or vegetables.
• A fifth key M, called "moderation" can allow nuancing, for example downward, each of the preceding estimates in order to take account of a particularly inhomogeneous loading from the point of view of PC _i .

Thus, using five keys, it is possible to estimate the load PC in a fairly fine way, since the driver has eight possible values. It is obvious that the introduction means can be designed differently from what has just been described, one can have a higher or lower number of keys, which gives a finer, respectively coarser choice of the PC, the values selected may be different from those indicated above in the form of examples, just as the means used to indicate the estimate of the PC may be different from those described; for example, the housing 21 can include a certain number of keys relating to particular materials or types of garbage such as wood, plastic, household garbage, etc., as well as other keys making it possible to display a percentage, which allows the hot feur to indicate the contents of its load such as for example: household waste - 30%, construction waste - 40%, garden waste - 30%. The box 21 can also include means 22 by which the driver indicates, in a manner known in the art, for example using a magnetic card or keys, his identity and / or the reference of his vehicle, for control.

Calculation means 6, for example a microcomputer, receive the indication of the mass of incoming garbage, weighed by the balance 20, as well as the estimated PC of said garbage, or their composition, introduced in the manner described above. Since, on the other hand, the computer 6 knows the value of the average PC of each of the portions 50 of the pile of garbage 5 contained in the pit 1, since it has kept in memory the values corresponding to the previous arrivals and the withdrawals by the bucket 12, it can indicate to the driver, by any display means 23, to which door he must go to empty his truck, so that the average PC between the different portions 50 is as homogeneous as possible.

For example, as can be seen in FIG. 3, if a truck has dumped, through a given door on a portion 50 of pile 5, a load with a very high PC value, and that said garbage has been distributed during their dumping in a relatively thin layer 51 on the upper surface of the portion 50, the calculation means will wait for a loading with a low PC _i value to indicate the same door to it, so that its garbage also covers in the form of a thin layer 52 those previously filed. Each portion 50 of the heap 5 therefore comprises a succession of thin layers, each of said layers possibly having a different value of PC ,, the succession of values of PC between the different portions 50 possibly being different for each portion 50. The succession of each layer is determined by the calculation means 6 so that the average PC inside a portion 50 and of the complete pile of garbage 5 is as homogeneous as possible.

During the removal of garbage by the bucket 12 of the overhead traveling crane 11, for the supply of a hopper 4, since the bucket only collects garbage at a fairly limited point in a portion 50, it penetrates through several of the thin layers, so that its loading has a relatively homogeneous PC.

In the case where, for example, the incineration plant comprises a shredder, generally delivering an excellent quality fuel with a very high PC value, the means for collecting the shredded waste can be, for example, one or more conveyor belts 7, including a mat 70 at least, enters through an access 13 inside the pit 1 and is capable of distributing the shredded waste over one or the other of the portions 50, for example by pouring means 71 known in the art, in order to increase the average CP of the portion considered. It is also possible for the conveyor belt 70 to pour the shredded waste into a determined location in the pit, an adequate program being installed in the calculation means 6, in order to automatically control the overhead crane 11 so that it distributes this waste on a 50 heap with low PC value.

The method of managing the entry of refuse from a pit according to the method described above already represents a significant improvement compared to conventional management, insofar as the ovens are powered by a relatively constant PC _i fuel without that it is necessary to stack the pile of garbage.

Independently of or simultaneously with the process described above, the pit management process can be applied to the outlet of the garbage to the incineration furnace (s).

For this, the pit 1 is equipped with detection means 8 making it possible to detect the general shape of the pile of refuse 5 as well as the height of said pile in the pit. These detection means can be of any type known in the art, consisting for example of a plurality of devices 80 arranged against the underside of the upper wall of the pit, for example a pair of devices 80 for each portion 50, the first being placed above the upper part of the portion while the second is arranged above the lower part of the same portion, as shown in FIGS. 1, 2 and 3, or else in another place as for example a single device 81 per portion 50, arranged for example against an upper part of the wall facing the doors 10, as shown in FIG. 3. Each device 80 or 81 is preferably a transmitter / receiver, transmitting and receiving radiation appropriate electro-magnetic allowing to estimate, using the computer 6 for example, the configuration and the height of each of the portions 50. The electromagnetic radiation u used must be chosen so as not to be disturbed by the dust cloud prevailing in the pit; the best results have been obtained by electromagnetic radiation corresponding to radar waves. Since as indicated above, the shape of the pile of garbage 5 inside the pit has a relatively known shape, a succession of portions of trunks of cones, it is possible to obtain a good approximation of a representation of the upper surface of the pile 5 by measuring the position only of a limited number of points on this surface. The devices 80 and 81 have been described as having simultaneously a transmission function and a reception function; it is obvious that these two functions can be dissociated, just as it is possible to use fewer devices 80 or 81 than mentioned, each of them controlling for example a larger portion of the upper surface of the pile and of even it is possible that the devices 80 or 81 are placed in other places than described, provided that they are not hindered or reached by the overhead crane 11 or the bucket 12. It is also possible to install one or more devices 82 directly under the overhead crane 11, the sweeping of the upper surface of the pile being made according to the movement of the overhead crane.

By a mathematical relation connecting the positions of the various measured points of the upper surface of the pile 5, it is possible to establish the general shape of this surface with sufficient precision, by the calculation means 6 (see Figure 1) which can be the same as those managing the entrances to the pit or which may be different, for example a separate microcomputer. Thus, by detection means 8 and calculation means 6 as indicated, it is possible to know the topography of the upper surface of the pile 5 without direct vision of a crane operator. It is therefore possible, by adequate programming of the calculation means 6, to automatically control the overhead crane 11 and the bucket 12 so that the latter goes to look for material at a determined location, preferably on the 50 most high.

The topography of the upper surface of the pile 5, approximated by the calculation means 6, can be represented graphically in three dimensions on a control screen arranged for example in the control room, thus allowing the operator to make a good idea of the appearance of this surface. The calculation / graphical representation program can also represent a determined section through the pile at the operator's choice, for example a transverse section at the right of one or the other of the doors 10 or else a longitudinal section over all or only part of the length of the pit. In addition to this calculated representation of heap 5, a direct view of the pit or via a television camera and a screen can help improve the calculated representation by possibly correcting one or the other of the calculated parameters in order to improve the re - graphic presentation of the upper surface of the pile.

In case the entry of garbage is not managed as explained above and therefore the trucks dump their contents randomly into the pit, the only criterion being the height of the portion 50 on which to dump, it is necessary , as for pits managed only by methods according to the prior art, to stack pile 5 in order to homogenize it as well as possible. For this, the calculation means 6 may include an automatic stacking program allowing this operation to be carried out without the presence of a crane operator.

Thus, from a heap 5 homogenized by stacking or by input control, the calculation means 6, from an adequate program, can automatically control the overhead crane 11 and the bucket 12 in order to feed the hoppers 4 of the 40 incineration ovens.

The start of the loading process of a hopper 4 is preferably controlled by a detection of a minimum level of the hopper; the overhead crane 11 and the bucket 12 are then directed in order to go to be placed at a point in the pit superimposing the portion of the upper surface of the pile 5 located at the highest altitude. The bucket 12 is then open, then it is lowered to contact with the pile 5, this position being detectable by a strain gauge 13 placed on the overhead crane and which is suddenly discharged from the tare of the bucket 12. The closure bucket 12 is then controlled as well as its ascent. On the first meters of this ascent, the strain gauge 13 measures the net load collected by the bucket; if this load is less than a predetermined limit value, the raising of the bucket is interrupted and its opening is commanded again in order to unload its contents, it then descends for a new catch as previously. As soon as the strain gauge 13 measures a sufficient load, respectively greater than the predetermined limit value, the bucket 12 is completely raised, then moved by the overhead crane 11 in order to bring and discharge its contents into the hopper 4 from which the order to start the process had been given. The process described above by which the load of the bucket is controlled makes it possible to guarantee a sufficient supply of the hoppers, by limiting the displacements of the overhead traveling crane 11 and moreover makes it possible to guarantee that the grab has collected refuse in several of the layers 51, 52, ..., which homogenizes the calorific value of the load.

We can summarize here the various advantages provided for the operation of a refuse pit depending on whether only its inputs or only its outputs or its inputs and outputs are managed by a method according to the invention.

In the case where only the entry of refuse into the pit is managed by the process described, tending to homogenize the pile of refuse by a controlled dumping of each truck, it is possible to dispense with the stacking operation, which greatly saves the use of the overhead crane thereby reducing the work of the crane operator.

In the case where only the removal of refuse from the pit is managed by the process described, tending to automatically control the shape and dimensions of the pile of refuse, it is possible to dispense with the presence of the crane operator, a commanding program automatically the loading operations of the oven hoppers and possibly stacking.

And finally, in the case where the entry and exit of refuse from the pit are managed by the methods described, there are the combined advantages of the two methods mentioned, ie complete elimination of stacking and elimination of the crane operator position.

The use of each process reduces the operating costs of the incineration plant tion, the maximum economy being achieved when both the entry and exit of garbage are managed by the method according to the invention.

avec:

• E_v = énergie de la vapeur produite par la chaudière (MWh)
• ₁₁ = rendement combiné du four et de la chaudière
• P_o = masse des ordures ayant produit Ev (kg)
• PC = pouvoir calorifique inférieur moyen estimé de la masse P_o (kgcal/kg)

We have seen that for the management of garbage entries, it is necessary to estimate the value of the lower calorific value of the load; from these estimates and from the tonnage poured into the pit, measured by the balance 20, the calculation means 6 can continuously calculate the energy reserve available in the pit, respectively the possible operating time, thus making it possible to optimize the operation ovens, which also tends to lower operating costs. The calculated energy value of a given quantity of garbage can be compared to the energy produced by their combustion, taking into account the efficiency of the furnace. It is thus possible to determine a correlation coefficient making it possible to know whether the estimated value of the PC made during the weighing of the trucks is correct. The correlation index Ic is given by:

with:

• E _v = energy of the steam produced by the boiler (MWh)
• ₁₁ = combined efficiency of oven and boiler
• P _o = mass of garbage having produced Ev (kg)
• PC = estimated lower average calorific value of the mass P _o (kgcal / kg)

If I _c is generally greater than 1, the estimated CP is overvalued, while if I _c is generally less than 1, the estimated PC is undervalued. A correction can be made either by telling the truck drivers to correct their estimate in the desired direction, or by correcting the estimated value by an adequate weighting in the calculation means 6. These calculations and corrections will preferably be done over a period long enough to gradually move towards an increasingly precise calculation of the thermal load available in the pit.

Using the above relation, the parameters introduced or measured elsewhere make it possible to provide operating values of the incineration plant, for example that of the energy in stock, of the number of operating hours. ovens as well as the average lower calorific value of the fuel burned during a given period. These values can also be displayed in the factory control station by appropriate means 60, in order to aid in its management.

Claims (17)

1-Process for managing the arrival of garbage in a pit (1) for feeding at least one
oven capable of supplying at least one boiler of an incineration plant, said pit comprising a plurality of accesses (10,13)) by which harvesting means (30,70)) responsible for collecting the garbage unload their content and at least one disposal means (11,12) making it possible to collect a quantity of garbage at a point on the upper surface of the pile (5) contained in said pit in order to bring them to feeding means (4 ) one or more incineration furnaces, characterized in that the mass of the content of each of said harvesting means is measured (20), an estimated value of the average calorific value of the content of each of said harvesting means is introduced (21) into calculation means (6), said calculation means (6) indicate to each of said harvesting means (30) an access (10) to the pit (1) for discharging its contents therein, said access being determined in such a way that the average calorific value of the refuse contained in the pit is as homogeneous as possible. 2-Method for managing the outlet of refuse from a pit (1) for feeding at least one oven capable of supplying at least one boiler of an incineration plant, said pit comprising a plurality of accesses ( 10,13)) by which collection means (30,70) responsible for collecting the garbage unload their contents and at least one disposal means (11,12) making it possible to collect a quantity of garbage at a point from the upper surface of the pile (5) contained in said pit in order to bring them to feed means (4) for one or more incineration ovens,
characterized in that the topography of the upper surface of the refuse pile (5) in the pit (1) is detected by detection means (8) and is recorded by calculation means (6), the disposal means (11,12) are controlled by said calculation means in order to collect the refuse located at a determined point in the pile of refuse (5). 3-A method of managing the arrival and the exit of refuse from a pit (1) for the supply of at least one oven capable of supplying at least one boiler of an incineration plant, said pit comprising a plurality of accesses (10,13) by which collection means (30,70) responsible for collecting the refuse discharge their content and at least one disposal means (11,12) allowing a quantity of garbage at a point on the upper surface of the heap (5) contained in said pit in order to bring it to feed means (4) of one or more incineration furnaces,
characterized in that the mass of the content of each of the said harvesting means (30) is measured (20), an estimated value of the average calorific value of the content of each of said harvesting means is introduced (21) into first calculation means (6), said first calculation means indicate to each of said harvesting means an access (10) to the pit for discharging its contents therein, said access being determined in such a way that the average calorific value of the refuse contained in the pit is as homogeneous as possible, the topography of the upper surface of the refuse pile (5) in the pit is detected by detection means (8) and is recorded by second calculation means (6), the elimination means (11,12) are controlled by said second calculation means (6) in order to collect the refuse located at a determined point in the refuse pile (5). 4-management method according to claim 2, characterized in that it further comprises an automatically controlled stacking operation. 5-Device for managing a refuse pit according to the method of one of claims 1 or 3, characterized in that it comprises in particular: weighing means (20) of the mass of the content of each of the harvesting means (3), means for entering (21) the estimated value of the average calorific value of the content of each of the harvesting means, calculation means (6) allowing, from the mass as well as from the estimated value of the average calorific value of the content of each of the harvesting means, to determine an access (10) to the refuse pit by which said content is dumped on a portion (50) of a pile of garbage (5), so that the average calorific value of said pile is as homogeneous as possible. 6-Device for managing a refuse pit according to the method of one of claims 2 or 3, characterized in that it comprises in particular: means for detecting (8) the topography of the upper surface of a pile of refuse, calculation means (6) making it possible to record and approximate said topography from the indications provided by said detection means and to control the elimination means (11,12) in order to collect the garbage located at a determined point from the pile of garbage. 7-Device according to claim 6, characterized in that the calculation means (6) comprise a program for graphic representation of the topography of the pile of garbage. 8-Device for managing a refuse pit according to the method of claim 4, characterized in that it further comprises: calculation means (6) for automatically controlling said elimination means for an automatic stacking operation. 9-Device according to claim 5, characterized in that the means for introducing (21) the estimated value of the average calorific value of the content of each of the harvesting means comprises a device for introducing at least a predetermined value of a calorific value or the composition of the content of said harvesting means in the calculation means. 10-Device according to claim 9, characterized in that the calculation means (6) allow to calculate the thermal energy available in the garbage contained in the pit. 11-Device according to claim 10, characterized in that the calculation means (6) allow to calculate a correlation coefficient by comparing the heat energy supplied by the boilers to the thermal energy calculated on the basis of the estimated average heat value and measuring the mass of each load of garbage. 12-Device according to claim 11, characterized in that it further comprises display means (60) of the operating parameters of the incineration plant, in particular the energy in stock and / or the possible duration of operation of the ovens and / or the lower average calorific value of the fuel burned. 13-Device according to one of claims 6 to 8, characterized in that the detection means (8) of the topography of the surface consist of a plurality of transmitter-receiver devices (80,81,82) of electromagnetic waves. 14-Device according to claim 13, characterized in that said transmitter-receiver devices are radars. 15-Device for managing a refuse pit according to the method of one of claims 2, 3 or 4, characterized in that the disposal means consist of at least one overhead crane (11) supporting a dumpster (12), said dumpster being controllable for picking up trash at any point on the upper surface of the trash heap (5). 16-Device according to claim 15, characterized in that said overhead crane (11) is provided with a weighing device (13) making it possible to determine the moment when the bucket comes into contact with a portion of the upper surface of the pile garbage and a minimum admissible load for the bucket. 17-Device according to one of claims 10, 15 or 16, characterized in that the bucket (12) can be automatically controlled to go to collect waste from a shredder, arranged in a determined portion of the pit, to go distribute them over another determined portion of the pile in order to regulate its calorific value. 18-Garbage pit for feeding at least one incineration oven, characterized in that it is managed according to the method of one of claims 1 to 4.

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